Natural odors are usually mixtures; yet, humans and animals can experience them as unitary percepts. Olfaction also enables stimulus categorization and generalization. We studied how these computations are performed with the responses of 168 locust antennal lobe projection neurons (PNs) to varying mixtures of two monomolecular odors, and of 174 PNs and 209 mushroom body Kenyon cells (KCs) to mixtures of up to eight monomolecular odors. Single- PN responses showed strong hypoadditivity and population trajectories clustered by odor concentration and mixture similarity. KC responses were much sparser on average than those of PNs and often signaled the presence of single components in mixtures. Linear classifiers could read out t...
Sparse neural coding provides numerous computational advantages. A recent analysis of the locust olf...
In the mushroom body of insects, odors are represented by very few spikes in a small number of neuro...
The olfactory information that is received by the insect brain is encoded in the form of spatiotempo...
Natural odors are usually mixtures; yet, humans and animals can experience them as unitary percepts....
SummaryNatural odors are usually mixtures; yet, humans and animals can experience them as unitary pe...
Natural odors are usually mixtures; yet, humans and animals can experience them as unitary percepts....
In natural environments, odors are typically mixtures of several different chemical compounds. Howev...
SummaryFor animals to execute odor-driven behaviors, the olfactory system must process complex odor ...
Natural environments feature mixtures of odorants of diverse quantities, qualities and complexities....
Brain responses can significantly outlast sensory stimuli leading to potential ambiguity when respon...
Sensory stimuli are represented in the brain by the activity of populations of neurons. In most biol...
The brain represents sensory information in the coordinated activity of neuronal ensembles. Although...
Animals typically perceive natural odor cues in their olfactory environment as a complex mixture of ...
The responses of projection neurons in the antennal lobe of the locust brain (the functional analog ...
The odor transduction process has a large time constant and is susceptible to vari-ous types of nois...
Sparse neural coding provides numerous computational advantages. A recent analysis of the locust olf...
In the mushroom body of insects, odors are represented by very few spikes in a small number of neuro...
The olfactory information that is received by the insect brain is encoded in the form of spatiotempo...
Natural odors are usually mixtures; yet, humans and animals can experience them as unitary percepts....
SummaryNatural odors are usually mixtures; yet, humans and animals can experience them as unitary pe...
Natural odors are usually mixtures; yet, humans and animals can experience them as unitary percepts....
In natural environments, odors are typically mixtures of several different chemical compounds. Howev...
SummaryFor animals to execute odor-driven behaviors, the olfactory system must process complex odor ...
Natural environments feature mixtures of odorants of diverse quantities, qualities and complexities....
Brain responses can significantly outlast sensory stimuli leading to potential ambiguity when respon...
Sensory stimuli are represented in the brain by the activity of populations of neurons. In most biol...
The brain represents sensory information in the coordinated activity of neuronal ensembles. Although...
Animals typically perceive natural odor cues in their olfactory environment as a complex mixture of ...
The responses of projection neurons in the antennal lobe of the locust brain (the functional analog ...
The odor transduction process has a large time constant and is susceptible to vari-ous types of nois...
Sparse neural coding provides numerous computational advantages. A recent analysis of the locust olf...
In the mushroom body of insects, odors are represented by very few spikes in a small number of neuro...
The olfactory information that is received by the insect brain is encoded in the form of spatiotempo...